c – 如何知道链自定义运算符<<调用的数量?

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我有自己的类,我在其中定义和使用<<像这样的运算符:
vw& vw::operator<<(const int &a) {

    // add a to an internal buffer
    // do some work when it's the last number

    return *this;
}

...

vw inst;

inst << a << b << c << d;

...

inst << a << b;

...

链的数量<<每次通话都不一样.这些数字一起代表一个代码,我需要在代码完成时做一些事情. 我还有其他选择可以知道它何时完成,而不是为每个链添加一个特殊的终止值,如下所示?

inst << a << b << c << d << term;

...

inst << a << b << term;

EDIT2:遵循LogicStuff的当前解决方案:

--- chain.h ---
#pragma once
#include <iostream>
class chain
{
public:
    chain();
    ~chain();
};
--- chain_cutter.h ---
#pragma once
#include "chain.h"
class chain_cutter
{
    chain &inst;
public:
    explicit chain_cutter(chain &inst) : inst(inst) {
        std::cout << "cutter_constructor" << std::endl;
    }
    ~chain_cutter();
};
--- chain_cutter.cpp ---
#include "stdafx.h"
#include "chain_cutter.h"
chain_cutter::~chain_cutter()
{
    std::cout << "cutter_destructor" << std::endl;
}
--- chain.cpp ---
#include "stdafx.h"
#include "chain.h"
chain::chain()
{
    std::cout << std::endl << "chain_constructor" << std::endl;
}
chain::~chain()
{
    std::cout << std::endl << "chain_destructor" << std::endl;
}
--- flowchart.cpp ---

#include "stdafx.h"

#include <iostream>

#include "chain.h"
#include "chain_cutter.h"

chain_cutter operator<<(chain &inst,const int &a) {
    chain_cutter cutter(inst);
    std::cout << a << std::endl;
    return cutter;
}

chain_cutter&& operator<<(chain_cutter &&cutter,const int &a) {
    std::cout << a << std::endl;
    return std::move(cutter);
}

int main()
{

    std::cout << "main start" << std::endl;

    chain ch;

    ch << 1 << 2 << 3;

    std::cout << std::endl << "-----" << std::endl;

    ch << 4 << 5;

    return 0;
}

这是输出

main start

chain_constructor
cutter_constructor
1
2
3
cutter_destructor

-----
cutter_constructor
4
5
cutter_destructor

解决方法

可以在不改变当前语法的情况下实现.

你将不得不使inst<< a(即当前运算符<<)返回“特殊”类的临时实例,保持对inst的引用,实现运算符<<通过调用inst.operator<&lt ;,返回引用
to * this,然后在析构函数中执行额外的工作,这将在语句的末尾调用.

是的,您可以使用它跟踪通话计数.

我建议这些nonmember运算符<<重载(vw_chain是新的代理类):

// Left-most operator<< call matches this
vw_chain operator<<(vw &inst,const int &a) {
    return vw_chain(inst,a);
}

// All subsequent calls within the << chain match this
vw_chain &&operator<<(vw_chain &&chain,const int &a) {
    chain.insert(a);
    return std::move(chain);
}

班级本身:

struct vw_chain
{
    explicit vw_chain(vw &inst,const int &a) :
        inst(inst)
    {
        insert(a);
    }

    ~vw_chain() {
        // do something
    }

    void insert(const int &a) {
        // This,the original operator<<,should be made accessible only to this
        // function (private,friend class declaration?),not to cause ambiguity.
        // Or,perhaps,put the implementation of the original operator<< here
        // and remove it altogether.
        inst << a;
        ++insertion_count;
    }

    vw &inst;
    size_t insertion_count = 0;
};

我们必须通过rvalue引用传递实例.我们在vw_chain的构造函数中进行第一次插入,以获得mandatory copy elision(C 17),它仅适用于prvalues.是否会在返回声明中完成复制,未使用NRVO和旧标准进行指定.我们不应该依赖于此.

Pre-C 17解决方案:

struct vw_chain
{
    // We keep the constructor simpler
    vw_chain(vw &inst) : inst(inst) {}

    // Moved-from chains are disabled
    vw_chain(vw_chain &&other) :
        inst(other.inst),insertion_count(other.insertion_count) {
        other.is_enabled = false;
    }

    // And will not call the termination logic
    ~vw_chain() {
        if(is_enabled) {
            // do something
        }
    }

    void insert(const int &a) {
        inst << a;
        ++insertion_count;
    }

    vw &inst;
    size_t insertion_count = 0;
    bool is_enabled = true;
};

// The first overload changes to this
vw_chain operator<<(vw &inst,const int &a) {
    vw_chain chain(inst);
    chain.insert(a);
    return chain;
}

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